Absorbent article having moisture insensitive resilient shaping members

ABSTRACT

The present invention provides a disposable absorbent article such as an incontinent pad that is both comfortable and suitable for absorbing and containing large volumes of body liquids rapidly without leakage, especially a subsequent gush of liquid. Such an absorbent article comprises a liquid pervious topsheet, a liquid impervious backsheet, a layered expandable absorbent core positioned between the topsheet and the backsheet, at least two resilient shaping members, an acquisition channel, a liquid acquisition zone and at least two liquid impervious shelves. The present invention also relates to an absorbent article provided with an expandable overwrap having an expansion means for allowing the overwrap to expand when the absorbent core swells when wetted. The resilient shaping members of the present invention provide an improved absorbent article design having raised side edges and an acquisition channel. The resilient shaping members are a compressible, conformable, resilient, and moisture insensitive batt of fibers so that the resilient shaping members will retain their shape even when wetted.

This is a continuation of application Ser. No. 06/794,820, filed on Nov.4, 1985, now abandoned.

FIELD OF THE INVENTION

The present invention relates to absorbent articles such as incontinentpads, and more particularly, to absorbent articles which are comfortableyet capable of rapidly accepting and containing large volumes ofliquids.

BACKGROUND OF THE INVENTION

There is a growing awareness of the lack of satisfactory productsdesigned for mobile persons with incontinent infirmities. While sanitarynapkins, pantiliners, disposable brief and diapers are available for themobile incontinent person, such products are not satisfactory fromeither a comfort or a protection standpoint. Catamenial products such aspantiliners and sanitary napkins are very comfortable to use. However,these products fail to achieve a satisfactory level of containment forhigh void levels of urine. While diapers and briefs meet the containmentneeds of the incontinent person, these products lack the comfort anddiscreteness available from sanitary napkins and pantiliners.

Thus, it is desirable to provide an absorbent article such as anincontinent pad that is comfortable and discrete, yet provides superiorprotection and containment. In order to achieve the goal of providingsuch an absorbent article, it is necessary that the absorbent article becapable of rapidly accepting and containing a large volume of liquidwith a small surface area; rapidly distributing the liquid efficientlythroughout the product; conforming to the body of the wearer;maintaining good body contact (i.e., the maintenance of the article inclose proximity to and in conformity with the body of the wearer); andmaintaining its integrity even when wetted so as to be effective toaccept and contain a subsequent discharge or gush of liquid and toprevent rewet (i.e., recontact of liquids contained in the article withthe skin of the wearer due to forces that squeeze the liquid out of thearticle).

One of the methods for enhancing the absorptivity of such products is toprovide a void space or reservoir that is located near the top surfaceof the article. Examples of these type of products are disclosed in U.S.Pat. No. 3,364,931 issued Jan. 23, 1968 to W. F. Hirsch; U.S. Pat. No.4,029,101 issued June 14, 1977 to Chesky et al., and U.S. Pat. No.4,501,586 issued Feb. 26, 1985 to Holtman. Such articles, whileproviding some measure of increased ability to accept large volumes ofliquid, are often incapable of both effectively accepting a subsequentdischarge or gush of liquid and preventing rewet. This is due to thelack of integrity or form retention capacity of the materials afterbeing wetted. Absorbent cores such as those formed of creped wadding orcellulosic fibers have a tendency to split, ball or lump when wetted.They thereby become relatively shapeless and non-form-sustaining. Theseelements also tend to flatten out and become compacted when subjected toforces. Because an absorbent article is subject to various forces duringuse, the article will tend to lose its shape when wetted. Thus, it willnot conform to the body of the wearer resulting in discomfort for thewearer. In addition, the wetted and compressed absorbent core will havelost its ability to absorb a subsequent discharge or gush of liquidresulting in an increased likelihood of leakage and failure of theproduct. Further, because the void space or reservoir tends to lose itssize and shape, not only is there a decreased ability to contain highvolumes, but there is also an increased danger of rewet as the overwrapis no longer spaced away from the absorbent core.

Thus, there is a need to provide an absorbent article wherein thearticle will retain its shape after being wetted so as both to remaincomfortable and to be able to rapidly absorb and contain a subsequentgush of liquid without increasing the likelihood of leakage or rewet.Accordingly, it would be advantageous to provide an absorbant articlethat is moisture insensitive without a loss in comfort or absorbentmaterial would also be advantageous to provide an article havingincreased absorption and increased comfort.

Another method for increasing the absorbency of absorbent articles is toprovide them with water-insoluble hydrogels. Water-insoluble hydrogelsare polymeric materials which are capable of absorbing large quantitiesof liquids and which are further capable of retaining such absorbedliquids under moderate pressures. These absorption characteristics ofwater-insoluble hydrogels make such materials especially useful forincorporation into absorbent articles such as incontinent pads.

The effectiveness of liquid-absorbing hydrogel materials in disposableabsorbent articles can be quite dependent upon the form, position and/ormanner in which the hydrogel material is incorporated into the absorbentarticle. In some cases, for example, the effectiveness of hydrogelliquid absorption in absorbent articles can be adversely affected by aphenomenon called "gel blocking". The term gel blocking describes asituation that occurs when a hydrogel particle, film, fiber, composite,etc. is wetted. Upon wetting, the surface of the hydrogel materialswells and inhibits liquid transmission to the interior of the absorbentmaterial. Wetting of the interior subsequently takes place via a veryslow diffusion process. In practical terms, this means that absorptionof liquid by the article is much slower than discharge of liquid to beabsorbed, and failure of the absorbent article may take place wellbefore the hydrogel material in the absorbent article is fullysaturated.

Thus, there is a continuing need to identify hydrogel-containingabsorbent articles wherein the hydrogel material is especially effectiveand efficient in performing its intended function of holding dischargedbody liquids without interfering with the acquisition and distributionof body liquids by and within the article. Hydrogel materials aregenerally significantly more expensive than readily available absorbentfiber materials (e.g., cellulose fibers). Accordingly it would beadvantageous to provide articles wherein either absorbent capacity ofthe hydrogel-containing article can be improved or wherein a givenabsorbent capacity of an article can be maintained while reducing theamount of relatively expensive hydrogel material used. It would also beadvantageous to provide articles wherein the liquid-storing hydrogelmaterial does not adversely affect the ability of the absorbent articleto quickly acquire discharge body liquids.

In addition, because hydrogel material swells and expands upon beingwetted, the hydrogel-containing absorbent core also must expand. Becausethe overwrap is generally firmly affixed around the absorbent article,the only space available for expansion of the absorbent core is withinthe interior of the absorbent article. This is especially imporant forincontinent pads or other absorbent articles that have a void space orreservoir within the article. The hydrogel-containing absorbent corewill thus expand into the void spaces resulting in a loss of void space,i.e., acquisition area. In addition, if there is no void space withinthe absorbent core can expand, the core will be squeezed and compressedresulting in an increased danger of rewet. Therefore, there is a need toidentify hydrogel-containing absorbent articles wherein the overwrap canexpand as the hydrogel expands. Accordingly, it would be advantageous toprovide articles wherein an expansion means allows the overwrap tocontinually adjust as the hydrogel expands. It would also beadvantageous to provide articles wherein the manufactured size of thevoid spaces and channels are maintained during expansion of the article.

Therefore, it is an object of the present invention to provide anabsorbent article which is able to rapidly accept and contain a largevoid of body liquids without leakage.

It is an additional object of the present invention to provide anabsorbent article having improved comfort in both the wet and dry statefor the wearer.

It is a further object of the present invention to provide an absorbentarticle having a resilient shaping member which is moisture insensitiveso as to provide an acquisition channel to quickly accept and containlarge voids of body liquid, and to prevent these liquids from passingback through the topsheet to rewet the wearer.

It is also an object of the present invention to provide an absorbentarticle having a liquid impervious shelf to more efficiently utilize thehydrogel material capacity of the absorbent core.

It is a further object of the present invention to provide an absorbentarticle having an overwrap and a releasing means so that when thehydrogel-containing absorbent core expands when wetted, the overwrapwill expand maintaining the surface area of the article and at leastmaintaining and possibly increasing the volume of the liquid acquisitonzone during use.

These and other objects of the invention will be more readily apparentwhen considered and referenced to the following description and whentaken in conjunction with the accompanying drawings.

SUMMARY OF THE INVENTION

The present invention provides a disposable absorbent article such as anincontinent pad that is both comfortable and suitable for absorbing andcontaining large volumes of body liquids rapidly without leakage,especially a subsequent gush of liquid. Such an absorbent articlecomprises a liquid pervious topsheet, a liquid impervious backsheet, alayered expandable absorbent core positioned between the topsheet andthe backsheet, at least two resilient shaping members, an acquisitionchannel, a liquid acquisition zone and at least two liquid imperviousshelves. The present invention also relates to an absorbent articleprovided with an expandable overwrap having an expansion means forallowing the overwrap to expand when the absorbent core swells whenwetted.

The resilient shaping members of the present invention provide animproved absorbent article design having raised side edges and anacquisition channel. The resilient shaping members are a compressible,conformable, resilient, and moisture insensitive batt of fibers so thatthe resilient shaping members will retain their shape even when wetted.

The liquid impervious shelves comprise a multiplicity of shelf layersformed from a portion of the backsheet being folded. The liquidimpervious shelves channel the flow of liquids toward the lower layersof the absorbent core and encourage use of the bottom and sides of thelayers, thereby providing more efficient use of hydrogen materials. Ananti-bunching bead may be placed on each liquid impervious shelf betweenthe shelf layers to provide stability to the absorbent article.

The overwrap of the absorbent article is provided with an expansionmeans for permitting the overwrap to expand as the absorbent core swellswhen it is wetted. The expansion means is a releasable tack or othermeans that releases the overwrap when a slight shearing or peeling forceor action is applied to the expansion means. Thus the swelling of theabsorbent core is less likely to deform the shape of the pad or cause aloss of the absorptive capacity of the article, especially forsubsequent gushes of liquids.

BRIEF DESCRIPTION OF THE DRAWINGS

While the specification concludes with claims particularly pointing outand distinctly claiming the subject matter which is regarded as formingthe present invention, it is believed that the invention will be betterunderstood from the following descriptions which are taken inconjunction with the accompanying drawings in which like designationsare used to designate substatially identical elements, and in which:

FIG. 1 is a plan view of an incontinent pad embodiment of the presentinvention having portions cut away to reveal the underlying structure.

FIG. 2 is a fragmentary sectional view of the present invention takenalong section line 2--2 of FIG. 1.

FIG. 3 is a fragmentary sectional view of an alternative embodiment ofthe present invention.

FIG. 4 is a plan view of the absorbent core of the present inventionprior to folding the absorbent core to its preferred shape.

DETAILED DESCRIPTION OF THE INVENTION

As used herein, the term "disposable absorbent article" refers toarticles which absorb and contain body liquids and more specificallyrefers to articles which are placed against or in proximity to the bodyof the wearer to absorb and contain the various liquids discharged fromthe body, and which are intended to be discarded after a single use(i.e., they are not intended to be laundered or otherwise restored andreused). A preferred embodiment of the disposable absorbent article ofthe present invention, incontinent pad 20, is shown in FIG. 1 and incross-sectional view in FIG. 2. As used herein, the term "incontinentpersons" by adhesively attaching the pad directly to the crotch regionof the wearer's undergarment. It should be understood, however, that thepresent invention is also applicable to other disposable absorbentarticles such as incontinent briefs, diapers, sanitary napkins, and thelike.

FIG. 1 is a plan view of the incontinent pad 20 of the present inventionwith portions of the structure being cut away to more clearly show theconstruction of the incontinent pad 20 and with the portion of theincontinent pad 20 which contacts the wearer facing the viewer. Theincontinent pad 20 comprises an overwrap 21 exemplified by a liquidpervious topsheet 22 and a liquid impervious backsheet 24. Positionedbetween the topsheet 22 and the backsheet 24 is an absorbent core 26. Asshown in FIG. 2, the absorbent core 26 preferably comprises two or moredistinct layers. At least two resilient shaping members 28 arepositioned between the absorbent core 26 and the topsheet 22. As shownin FIG. 2, the resilient shaping members 28 are disposed one at eachside of the incontinent pad 20 in a spaced relation to each other. Anacquisition channel 30 is positioned between the topsheet 22 and theabsorbent core 26 and is longitudinally bounded by at least the spacedapart resilient shaping members 28. As shown in FIG. 2, the acquisitionchannel 30 is preferably positioned directly below the topsheet 22 toprovide and incontinent pad 20 that will rapidly accept large voidvolumes of liquid. The liquid impervious backsheet 24 preferably extendsalong the bottom and sides of the incontinent pad 20 and covers aportion of each of the resilient shaping members 28 so as to provide aliquid impervious barrier to contain liquids within the incontinent pad20. The backsheet 24 is preferably associated with the topsheet 22adjacent each of the resilient shaping members 28; the topsheet 22thereby covering the acquisition channel 30 and at least a portion ofeach resilient shaping member 28. Secured along the bottom of theincontinent pad 20 on the backsheet 24 is an adhesive attachment means32 that is covered by a removable release liner 34.

As shown in FIGS. 1 and 2, the absorbent core 26 is preferably a unifiedweb of material arranged in a multiplicity of layers; the layers beingformed by longitudinally extending folds in the web. The absorbent core26 thereby has a number of layers positioned in each side of theincontinent pad 20 and a central void space or channel to allow liquidsto rapidly be acquired by the pad. As shown in FIG. 2, the absorbentcore 26 preferably has a base layer 36 positioned adjacent the backsheet24, at least two first support layers 38, at least two first side marginlayers 40, at least two second support layers 42, and at least twosecond side margin layers 44. Each set of support layers and the sidemargin layers are disposed in a spaced relation to each other. Each ofthe sets of side margin layers should be spaced apart so as not to blockthe rapid inflow of liquids within the incontinent pad 20 and theabsorbent core 26. The absorbent core 26 thus has a first centralchannel 46 longitudinally bounded by the first side margin layers 40 andthe first support layers 38 and a second central channel 48longitudinally bounded by the second side margin layers 44 and thesecond support layers 42.

Because hydrogel materials absorb liquids slowly and expand or swellupon being wetted, the incontinent pad 20 must be provided with voidspace for rapid liquid acquisition and storage. This void space isgenerally referred to as a liquid acquisition zone 50. The volume of theliquid acquisition zone 50 must, therefore, be at least as large as theliquid volume the incontinent pad 20 is expected to accept, absorb andcontain. As shown in FIG. 2, the liquid acquisition zone 50 comprises atleast the resilient shaping members 28 and the acquisition channel 30.When the absorbent core 26 is a multilayered structure, the liquidacquisition zone 50 accidentally comprises the first centeral channel 46and the second central channel 48 of the absorbent core 26.Additionally, in order to provide additional void space to accept andcontain liquids, and to provide more rapid distribution of liquidsthroughout the pad, the incontinent pad 20 and the liquid acquisitionzone 50 may additionally comprise a first liquid distribution layer 52,a second liquid distribution layer 54 and a third liquid distributionlayer 55.

As illustrated in FIG. 1, the incontinent pad 20 is an elongateabsorbent article intended to be maintained in the crotch region of thewearer to accept and absorb discharged liquids. The embodiment of theincontinent pad 20 illustrated in FIG. 1 has generally straightlongitudinal sides and ends. However, any convenient design known tothose skilled in the art can be used in the practice of the invention.The overwrap 21 such as the topsheet 22 and the backsheet 24 are shownin FIG. 1 to extend beyond the ends of the absorbent core 26, thetopsheet 22 and the backsheet 24 being sealed along the ends by a seal56.

FIG. 2 shows a preferred embodiment of the incontinent pad 20 in whichthe backsheet 24 extend around the bottom and the sides of theincontinent pad 20. On each side of the incontinent pad 20, thebacksheet 24 has mutliple shelf layers formed by inwardly longitudinallyextending folds of the backsheet 24. As shown in FIG. 2, there is atleast two folds on each side of the incontinent pad 20, the foldsdefining a first liquid impervious shelf 58 and a second liquidimpervious shelf 60, each shelf having at least a first shelf layer 62and a second shelf layer 64. Each first shelf layer 62 is shown in FIG.2 to be releasably secured to each second shelf layer 64 by ananti-bunching bead 66.

In FIG. 2 the overwrap 21 is shown in two sections, topsheet 22 andbacksheet 24, rather than as a single section because of the ease ofconstructing the incontinent pad 20 when the overwrap is in two parts.It is to be understood that the precise number of sections joined toform the overwrap 21 is immaterial. In fact, an overwrap 21 constructedof a single section of material is illustrated and discussed as analternative embodiment.

The topsheet 22 is the element of the incontinent pad 20 that is placedin close proximity to the skin of wearer. The topsheet 22 is compliant,soft feeling and non-irritating to the wearer's skin. Further, thetopsheet 22 is liquid pervious permitting liquids to readily penetratethrough its thickness. In general, porous materials used as topsheetsfor disposable diapers or as coverings for conventional sanitary napkinscan be used in the present invention. A suitable topsheet may bemanufactured from a wide range of materials, such as porous foams,reticulated foams, apertured plastic films, natural fibers (e.g., woodor cotton fibers), synthetic fibers (e.g., polyester or polypropylenefibers) or from a combination of natural and synthetic fibers.Preferably, it is made of a hydrophobic material to isolate the wearer'sskin from the liquids in the absorbent core 26.

A particularly preferred topsheet 22 comprises staple lengthpolypropylene fibers having a denier of about 1.5, such as Hercules Type151 polypropylene marketed by Hercules, Inc. of Wilmington, Del. As usedherein, the term "staple length fibers" refers to those fibers having alength of at least about 15.9 mm (0.625 inches).

There are a number of manufacturing techniques which may be used tomanufacture the topsheet 22. For example, the topsheet 22 may be woven,non-woven, spunbonded, carded, or the like. A preferred topsheet 22 iscarded, and thermally bonded by means well known to those skilled in thefabric arts. Preferably, the topsheet 22 has a weight from about 15 toabout 25 grams per square meter, a minimum dry tensile strength of atleast about 400 grams per centimeter in the machine direction and a wettensile strength of at least about 55 grams per centimeter in thecross-machine direction.

In preferred embodiments of the present invention, the outer surface ofthe topsheet 22 is treated with a surfactant. Treating the outer surfaceof the topsheet 22 with surfactant renders such surface more hydrophilicwhich results in liquid penetrating the topsheet 22 faster than if thesurface were not treated. This diminishes the likelihood that liquidswill flow off the topsheet 22, which results in clothing and bodysoiling, rather than being absorbed by the absorbent core 26. It ispreferred that the surfactant be substantially evenly and completelydistributed throughout the outer surface of the topsheet 22. This can beaccomplished by any of the common techniques well known to those skilledin the art. For example, the surfactant can be applied to the topsheet22 by spraying, by padding or by the use of transfer rolls.

The backsheet 24 is impervious to liquids and is preferably manufacturedfrom a thin plastic film, although other flexible liquid imperviousmaterials may also be used. The backsheet 24 prevents body liquidsabsorbed and contained in the absorbent core 26 from wetting articleswhich contact the incontinent pad 20 such as undergarments. Preferably,the backsheet 24 is a polyethylene film having a thickness of from about0.012 mm (0.5 mil) to about 0.051 mm (2.0 mils), although otherflexible, liquid impervious materials may be used. As used herein, theterm "flexible" refers to materials which are compliant and which willreadily conform to the general shape and contours of the human body.

A suitable polyethylene film is manufactured by Monsanto ChemicalCorporation and marketed in the trade as film number 8020. The backsheet24 is preferably embossed and/or matte finished to provide a moreclothlike appearance. Further, the backsheet 24 may permit vapors toescape from the absorbent core 26 while still preventing liquids frompassing through the backsheet 24.

The size of the backsheet 24 is dictated by the size of the absorbentcore 26 and the exact design selected. In a preferred embodiment, thebacksheet 24 extends beyond each of the sides of the base layer 36 adistance of about 8.25 cm (3.25 inches) to about 15.25 cm (6 inches) toextend around at least the bottom and the sides of the incontinent pad20 and also preferably a portion of each of the resilient shapingmembers 28. In addition, the backsheet 24 extends beyond the ends of theabsorbent core 26 and is sealed to at least the topsheet 22 by a seal56.

The topsheet 22 and the backsheet 24 are associated together in anysuitable manner. As used herein, the term "associated" encompassesconfigurations whereby the topsheet 22 is directly joined to thebacksheet 24 by affixing the topsheet directly to the backsheet 24, andconfigurations whereby the topsheet 22 is indirectly joined to thebacksheet 24 by affixing the topsheet 22 to intermediate members whichin turn are affixed to the backsheet 24. In a preferred embodiment, thetopsheet 22 and the backsheet 24 are joined directly to each otheradjacent the resilient shaping members 28 by adhesive attachment means76 as are well known in the art.

The absorbent core 26 may be any means which is compressible,conformable, non-irritating to the wearer's skin, and capable ofabsorbing and retaining liquids. The absorbent core 26 may be formedfrom a wide variety of liquid absorbent materials commonly used indisposable diapers and other absorbent articles. Examples of suitableabsorbent materials include comminuted wood pulp which is generallyreferred to as airfelt, creped cellulose wadding, absorbent foams,absorbent sponges, textile fibers, or any equivalent material orcombination of materials. The total absorbent capacity of the absorbentcore 26 should, however, be compatible with the design liquid loading inthe intended use of the incontinent pad 20. Further, the size andabsorbent capacity of the absorbent core 26 may be varied to accommodatedifferent wearers.

Preferably, the absorbent core 26 consists essentially of asubstantially uniform combination of hydrophilic fiber material andparticular amounts of discrete particles of substantiallywater-insoluble, liquid-absorbing hydrogel material. Various types ofhydrophilic fiber material as disclosed above can be used. Particularlypreferred fibers include cellulose fibers, rayon, hydrophilizedhydrophobic fibers such as sufactant-treated or silica treatedthermoplastic fibers and polyester fibers. Most preferred materials arecellulose fibers, especially wood pulp fibers and wood pulp tissue.

In addition to the hydrophilic fiber material, the absorbent core 26also preferably contains discrete particles of substantiallywater-insoluble hydrogel material. Such hydrogel materials are inorganicor organic compounds capable of absorbing liquids and retaining themunder moderate pressures.

Suitable hydrogels can be inoragnic materials such as silica gels ororganic compounds such as cross-linked polymers. Cross-linking may becovalent, ionic, van der Waals, or hydrogen bonding. Examples ofhydrogel polymers include polyacrylamides, polyvinyl alcohol, ethylenemaleic anhydride copolymers, polyvinyl ethers, hydroxypropyl cellulose,carboxymethyl cellulose, polyvinyl morpholinone, polymers and copolymersof vinyl sulfonic acid, polyacrylates, polyacrylamides, polyvinylpyridine and the like. Other suitable hydrogels are those disclosed inAssarsson et al., U.S. Pat. No. 3,901,236, issued Aug. 26, 1975, whichis herein incorporated by reference. Particularly preferred hydrogelpolymers for use in the absorbent core 26 are hydrolyzed acrylonitrilegrafted starch, acrylic acid grafted starch, polyacrylates, andisobutylene maleic anhydride copolymers, or mixtures thereof.

Processes for preparing hydrogels are disclosed in Mesuda et al., U.S.Pat. No. 4,076,663, issued Feb. 28, 1978; Tsubakimoto et al., U.S. Pat.No. 4,286,082, issued Aug. 25, 1981; and further in U.S. Pat. Nos.3,734,876, 3,661,815, 3,760,731, 3,664,343, 3,783,871, the disclosuresof which are all incorporated herein by reference.

Hydrogel material found in the absorbent core 26 herein is used in theform of discrete particles. Hydrogel particles can be of any desiredshape, e.g., spherical or semi-spherical, cubic, rod-like, polyhedral,etc. Shapes having a large greatest dimension/smallest dimension ratio,like noodles, flakes and fibers, are also contemplated for use herein.Conglomerates of hydrogel particles may also be used.

In a particularly preferred embodiment of the present invention, theabsorbent core 26 will comprise an intimate mixture of hydrophilic fibermaterial and hydrogel particles with the hydrogel particles preferablybeing substantially uniformly distributed throughout a hydrophilic fibermatrix.

The substantially uniform combination of hydrophilic fiber material andhydrogel particles used as the absorbent core 26 preferably comprises alaminate of dispersed hydrogel particles, generally shown as 67interposed between layers of hydrophilic fiber material, generally shownas 68, such as tissue paper.

Alternatively, the absorbent core 26 can be formed by air-laying a drymixture of hydrophilic fibers and hydrogel particles and densifying theresulting web. Such a procedure is described more fully in Proctor &Gamble; European Patent Publication No. EP-A-122,042; published Oct. 17,1984, incorporated herein by reference. As indicated in this reference,the webs formed by this procedure for use as the absorbent core 26 willpreferably comprise substantially unbonded fibers and will preferablyhave a moisture content of 10% or less.

The absorbent core 26 can be of any desired shape consistent withcomfortable fit including for example, a circular, rectangular,trapezoidal, oblong, hourglass, dog bone or oval shape. Preferably,however, the absorbent core 26 will comprise a multi-layeredconstruction. It should be understood for purposes of this inventionthat the term "layers" does not necessarily limit the invention tosingle layers or sheets of material. Thus, each of the layers mayactually comprise laminates or combinations of several sheets or webs ofthe requisite type of materials as hereinafter described. Thus as usedherein, the term "layer" includes the terms "layers" and "layered". Mostpreferably, the absorbent core 26 is a unified web arranged in amultiplicity of core layes, the core layers being formed bylongitudinally extending folds in the web, the folds alternating in azig-zag sequence in each side of the incontinent pad 20.

As shown in FIG. 4, the absorbent core 26 is preferably a square web ofabout 20 cm (8 inches)×20 cm (8 inches) that is folded in a zig-zagsequence. In accordance with this folding sequence, each of the sideedges 69 of the unified web of the absorbent core 26 is folded inwardlytoward the longitudinal centerline 70 of the absorbent core 26 along alongitudinal fold line "A" located inwardly from the respective sideedge of the absorbent core by about 6.4 cm (2.5 inches) of the absorbentcore width, to define the second support layer 42. The side edges 69 arefurther folded outwardly from the pad centerline 70 along a secondlongitudinal fold line "B" spaced outwardly from the fold line "A" byabout 1.6 cm (0.625 inches) to define a second side margin layer 44overlying the second support layer 42. Still further, the side edges 69are folded inwardly in the same direction as the first fold along athird longitudinal fold line "C" spaced outwardly from the fold line "B"by about 1.6 cm (0.625 inches) to define a first support layer 38 thatoverlies the second side margin layer 44. Even further, each of the sideedges 69 is further folded outwardly from the centerline 70 along afourth longitudinal fold line "D" spaced outwardly from the fold line"C" by about 1.6 cm (0.625 inches) to define a first side margin layer40 overlying the first support layer 38.

An absorbent core 26 having multiple core layes as formed above offersseveral advantages. There are multiple surface areas available to absorband contain large volumes of liquids. Because hydrogel materials tend toswell and inhibit liquid transmission to the interior of the absorbentmaterial, it is desirable to provide as large a surface area as possibleto initially contact acquired liquids. In the above arrangement of theabsorbent core 26, most of the surface area available, in the layers arefully utilized. For example, the liquid impervious shelves transportsome liquid to the "outside" surfaces of the side margin layers.

In addition to the increased surface area available this absorbent core26 design allows free liquid to pass to lower layers of the absorbentcore 26, especially the base layer 36. As shown in FIG. 2, the firstside margin layers 40 and the second side margin layers are disposed ina spaced relation to each other. Therefore, the absorbent core 26 has afirst central channel 46 and a second central channel that arelongitudinaly bounded by the first side margin layers 40 and the firstsupport layers 38 and the second side margin layers 44 and the secondsupport layers 42, respectively. In order to insure that the channelswill not be mechanically blocked by the swelled hydrogel-containinglayers, the width of the central channels are critical. The transversewidth of each of the central channels must be at least about one-sixthof the total transverse width of the incontinent pad 20, preferablybeing about one-half and most preferably about two-thirds of the totaltransverse width of the incontinent pad 20.

The absorbent core 26, and more particularly the base layer 36, ispositioned between the topsheet 22 and the backsheet 24 and ispreferably attached to the backsheet 24 by attachment means (not shown)such as those well known in the art. For example, the absorbent core 26may be secured to the backsheet 24 by a uniform continuous layer ofadhesive, a patterned layer of adhesive, or an array of separate linesor spots of adhesive. An adhesive which has been found to besatisfactory is manufactured by Eastman Chemical Products of Kingsport,Tenn. and marketed under the tradename Eastobond A-3.

The resilient shaping members 28 provide an improved incontinent paddesign having raised side edges and an acquisition channel 30. Theraised side edges are pressed up against the skin area around theperineal area by the wearer's undergarment thereby forming a gasketingeffect leading to close body contact between the wearer and theincontinent pad 20. Liquid is thereby directed toward the middle of theincontinent pad 20 into the liquid acquisition zone 50 and theacquisition channel 30. In addition, because of the properties of theresilient shaping members 28 in retaining their shape and acquisitioncharacteristics even when wet, the incontinent pad 20 is capable ofacquiring a subsequent gush of liquid without increased likelihood ofleakage. Because of its physical properties, the resilient shapingmembers 28 also enhance the comfort perceived by the wearer. Theresilient shaping members 28 also serve as a reservoir in the liquidacquisition zone 50 for initially containing rapidly voided bodyliquids.

The resilient shaping members 28 are preferably disposed between thetopsheet 22 and the absorbent core 26 in order to obtain the desiredproperties discussed above. While wicking layers or other materials maybe placed between the topsheet 22 and the resilient shaping members 28,such an embodiment is not preferred. In addition, liquid distributionlayers may be placed between the resilient shaping members 28 and theabsorbent core 26. Preferably as shown in FIG. 2, the resilient shapingmembers and the first liquid distribution layer 52 are integrally formedfrom the same web of material, although the resilient shaping members 28may also be separate elements from each other and/or the first liquiddistribution layer 52.

The resilient shaping members 28 of the present invention may be formedin a number of ways. As is shown in FIG. 2, the material forming theresilient shaping members 28 may be inwardly rolled to bound anacquisition channel 30 that is wider at the top and at the bottom thanit is in the middle. Alternatively, the material may be zig-zag folded,or a number of layers of material may be laid on top of each other toprovide a resilient shaping member 28 of sufficient height. The heightof the resilient shaping members 28 is critical to the size of theacquisition channel 30 bounded by the resilient shaping members 28.(Height being defined as the dimension measured from the lowest point tothe uppermost point in the manufactured condition; i.e., the maximumthickness of the resilient shaping member 28.) If the resilient shapingmembers 28 are of insufficient height, the topsheet 22 will tend to bowand touch the lower layers of the incontinent pad 20, thereby resultingin a large amount of the volume of the acquisition channel 30 beinglost. Therefore, it is preferably that the resilient shaping members 28have a height in an uncompressed state of at least about 0.5 cm, andmore preferably from about 1.0 cm to about 2.0 cm. As shown in FIG. 2,the resilient shaping members 28 have a height of about 1.5 cm.

To allow liquids to rapidly flow to the lower portions of theincontinent pad 20, the resilient shaping members 28 must be in a spacedrelation to each other. As shown in FIGS. 1 and 2, the resilient shapingmembers 28 are in a longitudinal spaced relation to each other to bounda longitudinally extending acquisition channel 30. (A longitudinalspaced relation is defined as placing the elements lengthwise along theside of the pad so that there is a transverse width dimension separatingthe elements.) While the resilient shaping members 28 may be arranted ina number of different ways, a longitudinal spacing arrangement ispreferred.

In order to provide an incontinent pad 20 capable of being bothcomfortable and protective, the resilient shaping members 28 should becompressible, conformable, and resilinet. That is to say, the resilientshaping members 28 must possess such physical properties so that forcesapplied to them by the action of the wearer will readily cause them tobend, to compress and to conform to a space available for them as theincontinent pad 20 is held adjacent the wearer's body. The resilientshaping members 28 must be resilient so that each must, without theapplication of external forces, return to essentially its original sizeand shape after the forming forces are removed. Preferably, the materialused in manufacturing the resilient shaping members 28 possesses suchresilience that it will recover at least about 80% of its originalvolume after it is compressed to about 20% of its original volume whenthe compressing forces are removed. Most preferably, the material 28will recover at least about 90% of its original volume after it iscompressed to about 50% of its original volume when the compressingforces are removed.

Because the incontinent pad 20 is designed to retain its shape duringuse, the resilient shaping members 28 must also be essentiallyunaffected by the presence of liquids such as urine; that is to say, theresilient shaping members 28 must possess a high degree of wetresiliency. The resiliency shaping members 28 must retain sufficientinherent resiliency, even when wet, to impart to the element sufficientelasticity to resist close parking of the fibers thereof and theretention of the characteristics of the springy three dimensionalstructure during use so that the incontinent pad 20 will retain itsshape during subsequent gushes. Certain materials and fibers, such asrayon or cellulose fibers have a high degree of resiliency in the drystate, but are essentially non-resilient when wetted. Such materials andfibers are, in general, not useful in the present invention as resilientshaping members 28. The term "moisture insensitive" is used herein todescribe materials and fibers whose resiliency is relatively unaffectedby the presence of moisture.

Preferably the resilient shaping members 28 comprise a mass or batt offibers. While the resilient shaping members 28 can comprise othermaterials, such as a synthetic foam material, such materials are lesspreferred than a fibrous batt. The batt of fibers is preferably formedof hydrophobic fibers of a synthetic material because these types ofmaterials exhibit aninherent dry and wet resilience. Other materials mayalso be used as long as the fibers exhibit dry and wet resilience. Forexample, fibers that are bonded together at their points of intersectionusually exhibit the necessary wet and dry resilience. The resiliency offibers can be described by the initial modulus of the fibers. Initialmodulus can be measured according to A.S.T.M. Standard Method D3822(Standard Test Method for Textile Properties of Single Textile Fibers)which method is incorporated herein by reference. Fibers are said to bemoisture insensitive when their initial modulus in the presence ofmoisture is at least about 90% of the initial dry state modulus.

Synthetic fibers useful in the present invention include those made ofcellulose acetate, polyvinyl chloride, polyvinylidene chloride, acrylicresins, polyvinyl acetates, non-soluable polyvinyl alcohols,polyethylenes, polypropylenes, polyamides, and preferably, polyesters.Preferred are polyester fibers having a denier of from about 1 to about15 and a length of from about 2 to about 8 centimeters. As indicatedherein, the resiliency of the resilient shaping members 28 canfrequently be enhanced if the fibers are bonded together at their pointsof contact. Thermal bonding can be used or adhesives, such as latexadhesives, can be used to bond the synthetic fibers one to another.Other examples of suitable batts of fibers useful in the presentinvention are found in U.S. Pat. No. 4,475,911 issued to Gellert on Oct.9, 1984; U.S. Pat. No. 3,029,817 issued to Harwood et al., on Apr. 17,1962; and U.S. Pat. No. 3,371,667 issued to Morse on Mar. 5, 1968, allof which are incorporated herein by reference.

Preferably, because the hydrogel-containing absorbent core 26 requiressufficient void volume to rapidly contain large quantities of liquids,it is desirable that the resilient shaping members 28 be able to containpractical quantities of liquids. The resilient shaping members 28should, therefore, be manufactured of a material of relatively lowdensity so that each resilient shaping member 28 has sufficient voidvolume in the interstices or capillaries between fibers to containpractical quantities of urine. A low density material also helps toinsure that the resilient shaping members 28 are readily deformableunder the influence of the wearer's body thereby exhibiting comfortattributes. Preferably, the density of the resilient material is fromabout 0.01 to about 0.5 grams per cubic centimeter.

Since the fibers are preferably hydrophobic and will not absorb liquidsinto their interiors, the surfaces of the fibers are also hydrophobic.Therefore, in order for the interstices of the batt of fibers to moreeasily contain sufficient quantities of liquids, the surfaces of thefibers can be hydrophilic. More generally, the resilient shaping members28 can comprise a material having interstices or capillaries which arewetted by the liquids in question. Urine and other body liquids areprimarily aqueous solutions and suspensions; surfaces which are wettedby these liquids can be broadly described as hydrophilic. As used inthis specification, the term "hydrophilic", describes surfaces which arewetted by the liquid in question.

The state of the art respecting wetting of materials allows definitionof hydrophilicity (and wetting) in terms of contact angles and thesurface tensions of the liquids and solids involved. This is discussedin detail in American Chemical Society publication entitled, ContactAngle, Wetability, and Adhesion, edited by Robert F. Gould, anycopyrighted in 1964, which publication is incorporated herein byreference. The surface is said to be wetted by a liquid either when thecontact angle between the liquid and the surface is less than 90° orwhen the liquid will tend to spread spontaneously across the surface;both conditions normally coexist.

The materials used in the resilient shaping members 28 can achievehydrophilicity by any convenient means. For example, the material itselfcan be intrinsically hydrophilic, although as discussed herein, thiscircumstance is relatively rare for materials useful in the resilientshaping members 28. The surfaces of the resilient shaping members 28 canbe rendered hydrophilic by treatment with a surfactant, such as anon-ionic or anionic surfactant, as by spraying the material with asurfactant or dipping the material into the surfactant. By treating thesurfaces of the fibers with a surfactant, only the surfaces of thefibers exhibit hydrophilic characteristics while the fiber itselfremains hydrophobic.

Suitable surfactants include non-ionic surfactants such as Brij 76manufactured by ICI Americas, Inc. of Wilmington, Del. and the variousmaterials sold under the Pegosperse trademark by Glyco Chemicals, Inc.of Greenwich, Conn. Anionic surfactants can also be used. Surfactantsare applied to the fibers at a level of from about 0.2 to about 1 gramper square meter of material.

Synthetic foams useful as a resilient shaping member 28 includepolyester foam materials such as those described by Des Marais in U.S.Pat. No. 4,110,276 issued Aug. 29, 1978 and incorporated herein byreference, polyurethane foams, styrene-betadine foams, and cellulosesponge material. The synthetic foams should be soft and flexible, opencelled, and of medium cell size. Its interior surfaces should behydrophilic. Incorporation of surfactant during foam manufacture oraddition of surfactant to the preformed foam are two suitable methods ofinsuring that the interior surfaces are hydrophilic. The foam shouldhave a density of from about 0.1 to about 0.8 grams per cubiccentimeter.

The acquisition channel 30 is the void space positioned directly beneaththe topsheet 22. The acquisition channel 30 provides improved rates ofliquid acquisition because no interference to liquid flow is presenteddirectly below the top sheet. 22. Therefore, gushes of liquids willreadily and easily pass through the topsheet 22 into the acquisitionchannel 30 without having an opportunity to flow along the surface ofthe topsheet 22 creating a danger of leakage. In addition, theacquisition channel 30 provides improved topsheet dryness by not holdingliquids near the topsheet 22. Thus there is a reduced likelihood thatliquid will be squeezed out of the absorbent core 26 and back throughthe topsheet 22 causing uncomfort and leakage.

In order to achieve the improved properties discussed above, it ispreferred that the acquisition channel 30 be positioned between thetopsheet 22 and the absorbent core 26. While wicking layers or othermaterials may be placed between the topsheet 22 and the acquisitionchannel 30, such an embodiment is not preferred. In addition, any numberof materials or elements may be placed between the acquisition channel30 and the absorbent core 26. Preferably as shown in FIG. 2, the firstliquid distribution layer 52 is positioned immediately below theacquisition channel 30. The side walls of the acquisition channel 30 aredefined by the resilient shaping members 28. That is, the acquisitionchannel 30 is longitudinally bounded by the resilient shaping members28. Bounded being defined as the exterior or limiting lines of theobject.) The acquisition channel 30 is preferably longitudinally boundedto present the longest possible channel. While the acquisition channel30 may be longitudinally bounded by other elements or materials, such anembodiment is not preferred. In addition, it should be understood thatthe acquisition channel 30 may be bounded along other dimensions by anyelement or material.

The transverse width of the acquisition channel 30 is critical to therapid acquisition characteristics of the incontinent pad 20. If theacquisition channel 30 is too small, the incontinent pad 20 will beunable to rapidly collect and contain large gushes of liquids. Theacquisition channel 30 should, therefore, have a transverse width of atleast about one-sixth of the total transverse width of the incontinentpad 20. More preferably, the transverse width of the acquisition channel30 should be at least about one-half, and most preferably two-thirds, ofthe total transverse width of the incontinent pad 20. Because theincontinent pad 20 shown in FIG. 1 has a preferably transverse width ofabout 7.6 cm (3 inches), the transverse width of the acquisition channel30 should be at least about 1.27 cm (0.5 inches).

The liquid distribution layers 52, 54 and 55 serve to quickly collectand temporarily hold discharged body liquids. Since such liquids aredischarged in gushes, the liquid distributiton layers must be able toquickly acquire and transport liquids from the point of initial liquidcontact to other parts of the liquid distribution layer. The liquiddistribution layers also preferably provide a resilient, form retainingmember within the interior of the incontinent pad 20. The liquiddistribution layers also allow liquid contact with large surface areasof the absorbent core 26.

The liquid distribution layers can be disposed in several locationswithin the incontinent pad 20. Preferably, however, the liquiddistribution layers are disposed on the absorbent core layers. Thus, afirst liquid distribution layer 52 is preferably disposed between theresilient shaping members 28 and the first side margin layers 40. Asecond liquid distribution layer 54 is disposed between the second sidemargin layers 44 and the first support layers 38. A third liquiddistribution layer 55 is disposed between the second support layers 42and the base layer 36. While the liquid distribution layers arepreferably disposed as shown in FIG. 2, the liquid distribution layersmay be disposed in different locations, one or more of the liquiddistribution layers may be omitted from the structure, or they all maybe omitted entirely.

Various types of materials can be used in the liquid distribution layersof the incontinent pad 20. Specific examples of such materials includecellulose fibers, rayon and polyester fibers. Because the liquiddistribution layers are preferably resilient and moisture insensitive,it is preferable that the liquid distribution layers be a resilient, lowbulk density material. Even more preferably, the liquid distributionlayers are the same material as used in the resilient shaping members28.

As indicated, the primary function of the liquid distribution layers areto receive liquids passing through the relatively hydrophobic, liquidpervious topsheet 22 and to transport such liquids to other areas of theliquid distribution layers and eventually to the absorbent core 26. Theliquid distribution layers can thus be substantially free of hydrogelmaterial. Alternatively, the liquid distribution layers can containsmall amounts of hydrogel material in particle form as hereinafterdescribed. In some instances, the presence of hydrogel particles in theliquid distribution layers can actually serve to maintain the density ofthe layer within the optimum range to promote liquid ditribution. Thespecific type of hydrogel optionally used in the liquid acquisitionlayers does not have to be the same as the hydrogel type essentiallyemployed in the absorbent core 26.

Since asorbent cores, particularly those which contain hydrogelmaterials, absorb liquid slowly and expand upon absorption, theincontinent pad 20 preferably has a void space for rapid acquisition andtemporary storage of liquids. This void space is generally defined asthe liquid acquisition zone 50. The cubic volume defined by the liquidacquisition zone 50 must be at least as large as the liquid volume theproduct is expected to hold. Expected liquid volumes which will bereceived by the incontinent pad 20 varies according to the user. Thus, aload of from about 0 to about 300 millileters can be expected. Thus, theliquid acquisition zone 50 should have a volume of at least about 30 cm³and more preferably of from about 65 cm³ to about 300 cm³. As shown inFIG. 2, the incontinent pad 20 preferably has a liquid acquisition zone50 volume of about 205 cm³.

The liquid acquisition zone 50 comprises the void space available withinthe product to accept, contain and store rapidly discharged liquid.Therefore, the liquid acquisition zone 50 will comprise the acquisitionchannel 30, the first central channel 46 and the second central channel48. In addition, because the liquid distribution layers, and theresilient shaping members 28 preferably have large interstices which canaccept and contain liquids, the liquid acquisition zone 50 additionallycomprises these elements.

FIGS. 1 and 2 also show the liquid impervious shelves 58 and 60 of thepresent invention. Each of the sets of shelves channel the flow of theliquid toward the lower layers of the absorbent core 26 and particularlythe base layer 36. In addition, the shelves encourage use of the bottomof the side margin layers, thereby resulting in a more efficient use ofhydrogel materials. As liquids are acquired in the liquid acquisitionzone 50, some of the liquid flows to the sides of the pad. This liquidwill contact the liquid impervious shelves and be directed toward thebottom of the side margin layers. Thus the incontinent pad 20 hasimproved liquid handling through controlled liquid migration.

In order for free liquids to distribute throughout the lower layers ofthe incontinent pad 20, the shelves must have a maximum transverse widthso that the shelves do not present a mechanical barrier to the flow ofliquids to the lower layers. The maximum transverse width of each shelfshould, therefore, be about five-twelfths of the total maximumtransverse width of the incontinent pad 20, or preferably aboutone-eighth of the total transverse width of the pad. The most preferredarrangement is for each liquid impervious shelf to have a width of aboutone-fourth of the total transverse width of the incontinent pad 20.

While the liquid impervious shelves may each comprise a separate liquidimpervious layer, each of the shelves are preferably formed from aportion of the backsheet arranged in a multiplicity of shelf layers, theshelf layers being formed by longitudinally extending folds in thebacksheet. As is shown in FIG. 2, each liquid impervious shelf comprisesat least a first shelf layer 62 and a second shelf layer 64.

In the preferred embodiment of the incontinent pad 20 as shown in FIG.2, the incontinent pad 20 has at least two first liquid imperviousshelves 58 and at least two second liquid impervious shelves 60. Thefirst liquid impervious shelves 58 are disposed one on each side of theincontinent pad 20 in a spaced relation to each other between the secondside margin layers 44 and the first side margin 40 layers. Preferably,they are positioned between the first support layers 38 and the firstside margin layers 40. The second liquid impervious shelves 60 aredisposed one on each side of the incontinent pad 20 in a spaced relationto each other between the base layer 36 and the second side marginlayers 44. Preferably, the second liquid impervious shelves 60 aredisposed between the second support layers 42 and the second side marginlayers 44.

While the liquid impervious shelves may be manufactured from any liquidimpervious material as is known in the art, the liquid imperviousshelves are preferably formed of the same material as the backsheet suchas a thin plastic film such as polyethylene.

As shown in FIG. 2, an anti-bunching bead 66 is provided on theincontinent pad 20. The anti-bunching bead 66 secures the first shelflayer 62 of the liquid impervious shelves to the second shelf layer 64to provide stability for the product so that as the product conforms tothe body of the wearer during use, the sides of the pad will notsignificantly distort into a configuration whereby the resilient shapingmembers 28 will be squeezed closely together thereby effectivelyblocking the acquisition channel 30 from the flow of liquids. As shownin FIG. 2, an anti-bunching bead 66 is preferaby positioned on eachfirst liquid impervious shelf 58 and each second liquid impervious shelf60. While this configuration is preferred, the anti-bunching bead 66 mayalternatively not be positioned on any or all of the liquid imperviousshelves. Additionally, the anti-bunching bead 66 may extend the entirelength of the liquid impervious shelf or it may preferably extend only afraction of the length of the shelf. The anti-bunching bead 66 may bemanufactured from double-sided adhesive tape, hot melt adhesives, hotmelt polypropylenes or polyethylenes or any other means as are wellknown in the art.

The incontinent pad 20 is provided with optional adhesive attachmentmeans 32 as is illustrated in FIG. 2. The adhesive attachment means 32is illustrated as a wide strip of adhesive positioned on the backsheet24 and running almost the entire length of the incontinent pad 20. Thisarrangement is selected for convenience; those skilled in the art canreadily select a different pattern for the adhesive attachment means 32.

The purpose of the adhesive attachment means 32 is to secure theincontinent pad 20 in the crotch region of the wearer's undergarment.Any adhesive or glue used with sanitary napkins for such a purpose canbe used with this invention. Pressure sensitive adhesives are preferred.Suitable adhesives include Century A-305IV manufactured by CenturyAdhesive Corporation and Instant Lok 34-2823 manufactured by NationalStarch Company. Other means for physically securing the incontinent pad20 in the crotch region of the wearer's undergarment can be used, butadhesive attachment means 32 are preferred.

When adhesive attachment means 32 is present in the device, it isusually covered, prior to the time the wearer affixes the incontinentpad 20 to the undergarment, with a release liner 34. The release liner34 serves to keep the adhesive attachment means 32 from drying out andfrom sticking to extraneous surfaces prior to use. Any release liner 34commonly used for such purposes with sanitary napkins can be used withthis invention. Examples of suitable release liners 34 are BL30 MG-ASILOX E1-0 and BL30 MG-A SILOX 4P/O manufactured by Akrosil Corporation.

Referring to FIG. 1, the topsheet 22 and the backsheet 24 are secured toeach other at the ends of the incontinent pad 20 with a seal 56. Theseal 56 can be achieved by mechanical crimping, thermal welding,ultrasonic welding, adhesive bonding, etc. Although preferably each ofthe above elements are secured by the seal 56, several alternativeembodiments are possible whereby additional elements are secured to thethese elements by the seal 56.

In use of the incontinent pad 20 is secured on the inside of the crotchportion of a garment with the adhesive side toward the crotch. Therelease liner 34 is removed from the incontinent pad 20 to expose theadhesive attachment means 32. The incontinent pad 20 is secured inposition by pressing the adhesive attachment means 32 firmly against thecrotch material.

FIG. 3 shows an alternative embodiment of the present invention in whichthe overwrap 21' consists of the topsheet 22 that extends around theentire incontinent pad 20. While the topsheet 22 preferably overwrapsthe entire structure of the incontinent pad 20, other embodiments arepossible whereby the overwrap 21 or the topsheet 22 extends only aroundthe sides and the top of the incontinent pad 20. Because the absorbentcore 26 will expand when wetted, the incontinent pad 20 is additionallyprovided with expansion means 72 for permitting expansion of thetopsheet 22 as the absorbent core 26 expands.

The expansion means 72 are any means that would release the topsheet 22when a slight shearing or peeling action is applied to the expansionmeans 72. Without the expansion means 72, the expansion of the absorbentcore 26 would severely deform the shape of the incontinent pad 20causing an increase in discomfort and a decrease in its liquidacquisition properties. Thus the expansion means 72 prevents theacquisition channel 30 from becoming so pinched by the absorbent core 26that the distance between the topsheet 22 and the absorbent core 26would not be maintained thereby resulting in a loss of the rapidacquisition characteristics of the incontinent pad 20. The expansionmeans 72 also prevents the absorbent core 26 from being squeezed as itexpands so that the danger of rewet is decreased. Examples of suchexpansion means 72 includes double-sided adhesive tape, mechanical meanssuch as thread or wire, or mechanical fasteners. In a preferredembodiment, as is shown in FIG. 3, the expansion means 72 comprises areleasable tack 74. The releasable tack 74 is an adhesive or glue thathas the requisite properties of releasing the topsheet 22 when a slightshearing or peeling force is applied to the releasable tack 74. Aparticularly preferred releasable tack 74 is hot melt adhesive, althoughother adhesives as are known in the art are also materials useful as thereleasable tack.

The expansion means 72 may be positioned on the incontinent pad 20 in anumber of different positions. As is shown in FIG. 3, the releasabletack 74 is positioned on the backsheet 24 so that a portion of thetopsheet 22 is secured to backsheet 24 preferably between the secondsupport layer 42 and the second side margin layer 44. However, thetopsheet 22 may be additionally or alternatively tacked between thefirst support layer 38 and the first side margin layers 40 or at anyother location along the backsheet 24.

An alternative expansion means is a multiplicity of overwrap layersformed in each side of the incontinent pad 20, the overwrap layers beingformed by longitudinally extending folds in the topsheet 22. While amultiplicity of overwrap layers are preferably located on each of thesides of the incontinent pad 20, embodiments are contemplated whereinthe multiplicity of layers are formed in only one location on theincontinent pad 20. Thus as the absorbent core expands, the topsheetwill expand unfolding the overwrap layers. In this embodiment, theexpansion means 72 are positioned on the topsheet 22. The expansionmeans 72 may additionally comprise a releasable tack positioned betweenthe overwrap layers of the topsheet 22 to releasably secure the overwraplayers together. In this embodiment, the overwrap layers of the topsheet22 are preferably inward longitudinally extending folds positionedbetween the core layers of the absorbent core 26, preferably between thesupport layers and the side margin layers. Alternatively, the overwraplayers may be positioned between the base layer and the side marginlayers or between any other core layers of the absorbent core 26 as areconfigured. In addition, the overwrap layers may be positioned anywhereon the perimeter of the incontinent pad 20 including, for example, alongthe bottom of the incontinent pad 20.

While particular embodiments of the present invention have beenillustrated and described, those skilled in the art will recognize thatvarious changes and modifications can be made without departing from thespirit and scope of the invention. It is intended to cover, in theclaims, all such modifications that are within the scope of thisinvention.

What is claimed is:
 1. An absorbent article comprising:a liquid pervioustopsheet; a liquid impervious backsheet joined with said topsheet; anabsorbent core positioned between said topsheet and said backsheet; atleast two resilient shaping members disposed one in each longitudinalside of the absorbent article in a longitudinally spaced relation toeach other between said absorbent core and said topsheet, said resilientshaping members being moisture insensitive; an acquisition channelpositioned between said topsheet and said absorbent core, andlongitudinally bounded by and coplanar with at least said resilientshaping members; and a liquid acquisition zone having a volume of atleast 30 cm³, said liquid acquisition zone comprising at least saidresilient shaping members and said acquisition channel.
 2. The absorbentarticle of claim 1 wherein each of said resilient shaping members isformed from a resilient material that will recover at least about 80% ofits original volume after it is compressed to about 20% of its originalvolume.
 3. The absorbent article of claim 2 wherein each of saidresilient shaping members is a batt of compressible, conformable,resilient fibers.
 4. The absorbent article of claim 3 wherein thesurfaces of said batt of fibers are hydrophilic.
 5. The absorbentarticle of claim 1 wherein each of said resilient shaping members is asynthetic foam.
 6. The absorbent article of claim 1 wherein each of saidresilient shaping members has a height of at least about 0.5 cm.
 7. Theabsorbent article of claim 1 wherein each of said resilient shapingmembers has a height of at least about 1.0 cm.
 8. The absorbent articleof claim 1 wherein the transverse width of said acquisition channel isat least about one-sixth of the total transverse width of the absorbentarticle.
 9. The absorbent article of claim 1 wherein the transversewidth of said acquisition channel is at least about one-half of thetotal transverse width of the absorbent article.
 10. The absorbentarticle of claim 1 wherein the transverse width of said acquisitionchannel is at least about two-thirds of the total transverse width ofthe absorbent article.
 11. The absorbent article of claim 10 whereineach of said resilient shaping members has a height of at least about0.5 cm.
 12. The absorbent article of claim 11 wherein each of saidresilient shaping members is a batt of compressible, conformable,resilient fibers.
 13. The absorbent article of claim 12 wherein saidabsorbent core contains a hydrogel material.
 14. An absorbent articlecomprising:a liquid pervious topsheet; a liquid impervious backsheetjoined with said topsheet; an absorbent core positioned between saidtopsheet and said backsheet, said absorbent core comprising a mixture offiber material and hydrogel particles and having(i) a base layerpositioned adjacent said backsheet, (ii) at least two coplanar firstside margin layers disposed one in each longitudinal side of theabsorbent article in a lonitudinally spaced relation to each otherbetween said base layer and said topsheet, and (iii) a first centralchannel positioned between said base layer and said topsheet, andlongitudinally bounded by and coplanar with at least said first sidemargin layers; at least two resilient shaping members disposed one ineach longitudinal side of the absorbent article in a longitudinallyspaced relation to each other between said absorbent core and saidtopsheet, said resilient shaping members being moisture insensitive andhaving a height of at least about 0.5 cm; an acquisition channelpositioned between said topsheet and said absorbent core, andlongitudinally bounded by and coplanar with at least said resilientshaping members, the transverse width of said acquisition channel beingat least about one-half of the total transverse width of the absorbentarticle; a first liquid distribution layer disposed between said firstside margin layers and said resilient shaping members; and a liquidacquisition zone having a volume of at least 30 cm³, said liquidacquisition zone comprising at least said first liquid distributionlayer, said first central channel, said acquisition channel and saidresilient shaping members.
 15. The absorbent article of claim 14additionally comprising a second liquid distribution layer disposedbetween said base layer and said first side margin layers, said liquidacquisition zone additionally comprising said second liquid distributionlayer.
 16. The absorbent article of claim 15 wherein said absorbent coreadditionally comprises at least two coplanar second side margin layersdisposed one in each longitudinal side of the absorbent article in alongitudinally spaced relation to each other between said base layer andsaid second distribution layer, and a second central channel positionedbetween said base layer and said second liquid distribution layer; andlongitudinally bounded by and coplanar with at least said second sidemargin layers, said liquid acquisition zone additionally comprising saidsecond central channel.
 17. The absorbent article of claim 16additionally comprising a third liquid distribution layer disposedbetween said base layer and said second side margin layers, said liquidacquisition zone additionally comprising said third liquid distributionlayer.
 18. The absorbent article of claim 17 wherein each of saidresilient shaping members is a batt of compressible comformable,resilient fibers.
 19. An absorbent article comprising:a liquid pervioustopsheet; a liquid impervious backsheet joined with said topsheet; alayered absorbent core superposed on said backsheet, said absorbent corecomprising a mixture of fiber material and hydrogel particles and beinga unified web arranged in a multiplicity of core layers, said corelayers being formed by longitudinally extending folds in said web, thefolds alternating in a zig-zag sequence in each longitudinal side of theabsorbent article, said core layers comprising:(i) a base layerpositioned adjacent said backsheet, (ii) at least two coplanar firstsupport layers joined to said base layer and disposed one on eachlongitudinal side of the absorbent article in a longitudinally spacedrelation to each other, and (iii) at least two coplanar joined to firstsupport layers and first side margin layers disposed one on eachlongitudinal side of the absorbent article in a longitudinally spacedrelation to each other to define a first central channel between saidfirst side margin layers, said first side margin layers being spaced sothat said first central channel has a transverse width of at least aboutone-half of the total transverse width of the absorbent article; atleast two resilient shaping members disposed one in each longitudinalside of the absorbent article in a longitudinally spaced relation toeach other between said absorbent core and said topsheet, said resilientshaping members being moisture insensitive and having a height of atleast about 0.5 cm; an acquisition channel positioned between saidtopsheet and said absorbent core, and longitudinally bounded by andcoplanar with at least said resilient shaping members, the transversewidth of said acquisition channel being at least about one-half of thetotal transverse width of the absorbent article; and a liquidacquisition zone having a volume of at least 30 cm³ said liquidacquisition zone comprising at least said resilient shaping members andsaid acquisition channel.
 20. The absorbent article of claim 19additionally comprising a first liquid distribution layer disposedbetween said side margin layers and said resilient shaping members. 21.The absorbent article of claim 20 additionally comprising a secondliquid distribution layer disposed between said base layer and saidfirst side margin layers, said liquid acquisition zone additionallycomprising said second liquid distribution layer.
 22. The absorbentarticle of claim 21 wherein said absorbent core additionallycomprises:(iv) at least two coplanar second support layers joined tosaid first side margin layers and disposed one on each longitudinal sideof the absorbent article in a longitudinally spaced relation to eachother, and (v) at least two coplanar second side margin layers joined tosaid second support layers and one on each longitudinal side of theabsorbent article in a longitudinally spaced relation to each other todefine a second central channel between said second side margin layers,said second side margin layers being spaced so that said second centralchannel has a transverse width of at least about one-half of the totaltransverse width of the absorbent article.
 23. The absorbent article ofclaim 22 additionally comprising a third liquid distribution layerdisposed between said second support layer and said first side marginlayers, said liquid acquisition zone additionally comprising said thirdliquid distribution layer.
 24. The absorbent article of claim 23 whereineach of said resilient shaping members has a height of at least about1.0 cm, and wherein the transverse width of said acquisition channel isat least about two-thirds of the total transverse width of the absorbentarticle.
 25. The absorbent article of claim 24 wherein said resilientshaping members are inwardly rolled so as to be wider in the midle thanat the top and at the bottom.
 26. The absorbent article of claim 25wherein said resilient shaping members are integrally formed with saidfirst liquid distribution layer.
 27. An incontinent pad comprising:anoverwrap which extends around the entire incontinent pad comprising aliquid pervious topsheet and a liquid impervious backsheet joined withsaid topsheet; a layered absorbent core positioned between said topsheetand said backsheet, said absorbent core comprising a mixture of fibermaterial and hydrogel particles and having(i) a base layer positionedadjacent said backsheet, and (ii) two coplanar side margin layersdisposed between said base layer and said topsheet, one of said sidemargin layers being positioned in each longitudinal side of theincontinent pad in a longitudinally spaced relation to each other todefine a central channel between said side margin layers, said sidemargin layers being spaced so that said central channel has a width ofat least about one-half of the total transverse width of the incontinentpad; an adhesive attachment means positioned on said backsheet; arelease liner covering said adhesive attachment means; at least tworesilient shaping members disposed one in each longitudinal side of theabsorbent article in a longitudinally spaced relation to each otherbetween said absorbent core and said topsheet, said resilient shapingmembers being moisture insensitive and having a height of at least about0.5 cm; an acquisition channel positioned between said topsheet and saidabsorbent core, and longitudinally bounded by and coplanar with at leastsaid resilient shaping members, the transverse width of said acquisitionchannel being at least about one-half of the total transverse width ofthe incontinent pad; and a liquid acquisition zone having a volume of atleast 30 cm³, said liquid acquisition zone comprising at least saidresilient shaping members and said acquisition channel.
 28. Theincontinent pad of claim 27 wherein each of said resilient shapingmembers has a height of at least about 1.0 cm, and wherein thetransverse width of said acquisition channel is at least abouttwo-thirds of the total transverse width of the incontinent pad.